What it feels like depends a bunch on how close you are, or saids another way, how forcefully it hits you. We're not talking rip-your-arm off forces, but a spray of powder, liquid, or gas in the eye could be injurious. etc.

There are several types of extinguishers. My only prank encounter was from what is called a PKP when I was in the Navy. Its a dry purple powder that took my breath from me and blinded my for a minute. Good times.

ABC would be dry chemical. It is an nonorganic powder. It does attack the liver if you get it into your system.
If you get it in your lungs it will dry the linning enough and it would make it hard to breath.
In the face it would dry the eye balls and nasil areas.
If you get it on your skin some would absorb some through the skin.

Pressurised water type is like getting hit with a large squirt gun

[B]CO2[B] Depending on how close you are. At the opening of the nozzle small particles of dry ice form along with a fog of frozen water. This is very cold and if close enough to your skin can cause a surface frost bite.

With the exception of the pressurised water your clothes would not get soaked. But it is a dangerous thing to do to some one.

Just the other day, I was sprayed with a dry powder fire extinguisher by my boyfriend on his front steps . The powder felt terrible in my eyes and mouth, but it washed out of my clothes fairly easy. The drive home was tense, as i couldn't see too clearly. Luckily enough a long shower got rid of the rest of the powder. Some of it did get in my lungs, so they were raw for a couple days, but I recovered.

Yeah, odd coincidence. Is it common to have fire extinguishers in US homes?

Well, yes. There are 5 in our kitchen. There were only 3 before that time I set the curtains on fire.

We have one in all of our vehicles, and others are scattered around.

I don't pay attention to them, and I'm too lazy to get up and go count, but I'd guess that we own at least 25.

We also own a butt load of flashlights.

As to the OP's question, I have never been sprayed by a fire extinguisher. I do know a Merchant Marine who told me that they use their fire hoses to repel pirates. He used the term "whack a mole" when he was telling me about it.

I can recount a lecture from a third party, which admittedly might be somewhat propaganda. When I was in junior high school, we had a fireman come by one day and give us "the talk" about fire safety, including some lecture about fire extinguishers. Here is what he told us about CO2 extinguishers:

It contains compressed CO2, which expands massively as it is discharged. Expanding gasses get very cold, and this will get cold enough to cause frostbite. (Here's an experiment you can do at home: Open your mouth wide and blow gently into the palm of your hand. Note that it feels warm. Now purse your lips and blow gently into the palm of your hand. Note that it feels cool.)

Now, remember how if you go out on an ice-cold day and touch a frozen lamp post, your finger will stick to it? (Or similarly, if you touch a metal ice cube tray fresh out of the freezer.) Did you ever play that game of touching your tongue to a frozen lamp post?

Next, consider that all the expanding CO2 rushing out of that funnel will generate static electricity. Lots and lots and lots of static electricity. When enough builds up, you will get a sudden very strong jolt.

Now, have you connected the dots yet? If you aim the CO2 discharge by holding the funnel, it will get icy cold and the skin of your hand will freeze onto the funnel. Then you will get a huge static electricity jolt, and your arm will jerk away.

Leaving the skin from the palm of your hand on the funnel.

THEREFORE: Note that all CO2 extinguishers have, or ought to have, a wooden or plastic ring around the base of the funnel, which is where you should hold it to aim it. Here is the best pic I could find showing this. It is really really important for you to know and remember: HOLD THE FUNNEL BY THIS RING WHEN YOU DISCHARGE IT!!!!! Read the instructions on the side of the extinguisher in that picture -- it even says so, although not quite as emphatically as it probably should.

ETA: So, fire extinguishers are the weapon of choice now for use by abusive boyfriends?

Back when I was running rescue, a chemical fire extinguisher in the back of the ambulance fell over. For some reason, this extinguisher had a Lexan pin, instead of the more durable steel pin. The extinguisher fell over, the pin broke, and the extinguisher started to discharge its contents. Vigorously.

Fortunately, there was no patient in the back, as the unit was on its way back to the garage. The EMT in the back, under the assault of the chemical powder, exited the side door while the unit was still moving. She said she couldn't' have stayed in the back of the ambulance for even five more seconds.

Some teenagers in our area drove around spraying random passersby with a fire extinguisher. Apparently the type they used is powered by chemical reaction that produces acid. As the thing ran out of fire retardant, the acid came out, and they failed to notice they were driving around spraying acid on people.

(Here's an experiment you can do at home: Open your mouth wide and blow gently into the palm of your hand. Note that it feels warm. Now purse your lips and blow gently into the palm of your hand. Note that it feels cool.)

Adiabatic cooling is a real thing, and does indeed explain why CO2 fire extinguishers spit out a mix of dry ice and freezing-cold gas. However, the experiment you describe above is not a good demonstration of adiabatic cooling. You can't develop enough of a pressure drop across your pursed lips to result in a noticeable temperature drop. Instead, what you are demonstrating is an increase in convection: in the first scenario the large, slow-moving plume of air from your mouth surrounds your palm with warm, moist breath, whereas in the second scenario the narrow, the fast, narrow jet of air from your pursed lips entrains more of the cool ambient air and moves it across your skin, resulting in heat loss.

According to this chart, the maximum pressure a "typical" person can exert during exhalation is about 1.4 psi above ambient. The equation for adiabatic processes indicates that if the air in a person's respiratory tract is at 98.6 degrees while at this pressure, then when it comes out of your mouth, it'll be at 84.3 degrees. So it's possible to create a measurable cooling effect this way, but only by blowing as hard as you can through pursed lips; blowing gently, as you described, will not create nearly this much pressure (and not nearly this much temperature drop).

It contains compressed CO2, which expands massively as it is discharged. Expanding gasses get very cold, and this will get cold enough to cause frostbite. (Here's an experiment you can do at home: Open your mouth wide and blow gently into the palm of your hand. Note that it feels warm. Now purse your lips and blow gently into the palm of your hand. Note that it feels cool.)

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